The present invention concerns a fish feed-in device (10) which is designed to supply fish (13) to a plurality of fish-processing devices and comprises a transverse conveyor (14) designed to convey the fish (13) transversely to their head-tail orientation in a transverse conveying direction (15), wherein the transverse conveyor (14) comprises a plurality of receptacles (17) each designed to individually hold one of the fish (13), and the transverse conveyor (14) has a controllable drive unit (19), at least one feeder device (11) designed to supply fish to the receptacles (17) of the transverse conveyor (14), a plurality of transfer devices (16) which are designed to selectively transfer the fish (13) from the transverse conveyor to longitudinal conveyors (12) arranged upstream of the respective fish-processing devices, wherein the longitudinal conveyors (12) are designed to convey the fish (13) in their head-tail orientation to the fish-processing machines, and a control device which is designed to control the at least one feeder device (11), the transfer devices (16), and the conveying speed of the transverse conveyor (14) on the basis of at least one predefined distribution specification. The invention furthermore concerns a corresponding method for supplying fish.

The present invention concerns a fish feed-in device (10) which is designed to supply fish (13) to a plurality of fish-processing devices and comprises a transverse conveyor (14) designed to convey the fish (13) transversely to their head-tail orientation in a transverse conveying direction (15), wherein the transverse conveyor (14) comprises a plurality of receptacles (17) each designed to individually hold one of the fish (13), and the transverse conveyor (14) has a controllable drive unit (19), at least one feeder device (11) designed to supply fish to the receptacles (17) of the transverse conveyor (14), a plurality of transfer devices (16) which are designed to selectively transfer the fish (13) from the transverse conveyor to longitudinal conveyors (12) arranged upstream of the respective fish-processing devices, wherein the longitudinal conveyors (12) are designed to convey the fish (13) in their head-tail orientation to the fish-processing machines, and a control device which is designed to control the at least one feeder device (11), the transfer devices (16), and the conveying speed of the transverse conveyor (14) on the basis of at least one predefined distribution specification. The invention furthermore concerns a corresponding method for supplying fish.

The present invention relates to an apparatus for optical inspection of the opened abdominal cavity (10) of gutted fish (11), comprising a conveying device (12) configured for conveying the fish (11) along a processing line in the longitudinal direction, pivotable ventral flaps holding elements (17) configured for holding open the abdominal cavity (10) of the fish, at least one optical imaging system (21, 22, 23) arranged along the processing line, said optical imaging system being designed and configured to take at least one sequence of images of abdominal cavity regions of one of the fish (11) in each case, said sequence comprising a plurality of single images, at least one illumination device (24, 25) configured for illuminating the abdominal cavity regions in each case with light of a predetermined spectral composition, in each case at the times the single images are taken, an evaluation unit (26) configured to evaluate the image sequence according to prescribed quality parameters, said evaluation unit being designed to activate an ejection device to remove the relevant fish (11) from the processing line by ejecting it, should the evaluation reveal any deviation from the prescribed quality parameters. The invention further relates to a corresponding method.

The present invention relates to an apparatus for optical inspection of the opened abdominal cavity (10) of gutted fish (11), comprising a conveying device (12) configured for conveying the fish (11) along a processing line in the longitudinal direction, pivotable ventral flaps holding elements (17) configured for holding open the abdominal cavity (10) of the fish, at least one optical imaging system (21, 22, 23) arranged along the processing line, said optical imaging system being designed and configured to take at least one sequence of images of abdominal cavity regions of one of the fish (11) in each case, said sequence comprising a plurality of single images, at least one illumination device (24, 25) configured for illuminating the abdominal cavity regions in each case with light of a predetermined spectral composition, in each case at the times the single images are taken, an evaluation unit (26) configured to evaluate the image sequence according to prescribed quality parameters, said evaluation unit being designed to activate an ejection device to remove the relevant fish (11) from the processing line by ejecting it, should the evaluation reveal any deviation from the prescribed quality parameters. The invention further relates to a corresponding method.

A method and an apparatus for bringing fish to an under-cooled state by a sub-chilling process before processing, which prolongs rigor and allows processing of the fish in rigor providing better quality fish products.

A method and an apparatus for bringing fish to an under-cooled state by a sub-chilling process before processing, which prolongs rigor and allows processing of the fish in rigor providing better quality fish products.

The present invention relates to a conveying and distributing apparatus for delivering fish slaughtered by means of a plurality of slaughtering machines to at least one distributing device, comprising longitudinal conveyors downstream of each of the slaughtering machines, which are configured to receive the slaughtered fish longitudinally in a head to tail orientation, wherein each of the longitudinal conveyors comprises a weighing device for detecting the weight of the slaughtered fish, at least one first transfer device is arranged on each of the longitudinal conveyors, which are designed and configured to transfer the slaughtered fish to at least one transverse conveyor, wherein the at least one transverse conveyor is adapted to receive the slaughtered fish transversely with respect to the head to tail orientation, a feed device arranged on the end of the transverse conveyor, which is designed and configured to remove the slaughtered fish from the transverse conveyor and to feed the same to a distributing device, and a control device, wherein the control device comprises a position tracking means for tracking the respective positions of slaughtered fish and an allocation means for allocating the detected weights to the respective tracked positions of the slaughtered fish, and wherein the control device is designed and configured to control the distributing device on the basis of the detected weights when the slaughtered fish enter the distributing device according to a predefined distribution rule. The invention further relates to a corresponding arrangement and a corresponding method.

The present invention relates to a conveying and distributing apparatus for delivering fish slaughtered by means of a plurality of slaughtering machines to at least one distributing device, comprising longitudinal conveyors downstream of each of the slaughtering machines, which are configured to receive the slaughtered fish longitudinally in a head to tail orientation, wherein each of the longitudinal conveyors comprises a weighing device for detecting the weight of the slaughtered fish, at least one first transfer device is arranged on each of the longitudinal conveyors, which are designed and configured to transfer the slaughtered fish to at least one transverse conveyor, wherein the at least one transverse conveyor is adapted to receive the slaughtered fish transversely with respect to the head to tail orientation, a feed device arranged on the end of the transverse conveyor, which is designed and configured to remove the slaughtered fish from the transverse conveyor and to feed the same to a distributing device, and a control device, wherein the control device comprises a position tracking means for tracking the respective positions of slaughtered fish and an allocation means for allocating the detected weights to the respective tracked positions of the slaughtered fish, and wherein the control device is designed and configured to control the distributing device on the basis of the detected weights when the slaughtered fish enter the distributing device according to a predefined distribution rule. The invention further relates to a corresponding arrangement and a corresponding method.

A slicing machine for slicing meat strands that have a cross section that varies over a longitudinal extension in large numbers and as quickly as possible into weight precise slices. In one embodiment, two meat strands are received adjacent to each other in a respective form tube and pushed against a respective separately adjustable stop plate independently from each other by a controlled longitudinal press plunger and compressed in the longitudinal direction. In addition, a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other and thus the respective meat strand is transversally compressed to a constant cross section prior to slicing.

A slicing machine for slicing meat strands that have a cross section that varies over a longitudinal extension in large numbers and as quickly as possible into weight precise slices. In one embodiment, two meat strands are received adjacent to each other in a respective form tube and pushed against a respective separately adjustable stop plate independently from each other by a controlled longitudinal press plunger and compressed in the longitudinal direction. In addition, a cross section of the form tubes may be reduced in a first transversal direction jointly and in a second transversal direction independently from each other and thus the respective meat strand is transversally compressed to a constant cross section prior to slicing.